Home /Research /Bounding gait control of a parallel quadruped robot
LOCOMOTION

Bounding gait control of a parallel quadruped robot

Hao Xu, Wei Lang, Qiao Yue, Shengzui Xu, Jian Liao, Yu Xi, Wei Wang, Zhi‐Wei Liu

Year
2023
Citations
2

Abstract

Purpose The computing power of the legged robot is not enough to perform high-frequency updates for the full-body model predictive control (MPC) of the robot, which is a common problem encountered in the gait research of the legged robot. The purpose of this paper is to propose a high-frequency MPC control method for the bounding gait of a parallel quadruped robot. Design/methodology/approach According to the bounding gait characteristics of the robot, the quadruped robot model is simplified to an equivalent plane bipedal model. Under the biped robot model, the forces between the robot’s feet and the ground are calculated by MPC. Then, the authors apply a proportional differential controller to distribute these forces to the four feet of the quadruped robot. The robot video can be seen at www.bilibili.com/video/BV1je4y1S7Rn . Findings To verify the feasibility of the controller, a prototype was made, and the controller was deployed on the actual prototype and then fully analyzed through experiments. Experiments show that the update frequency of MPC could be stabilized at 500 Hz while the robot was running in the bounding gait stably and efficiently. Originality/value This paper proposes a high-frequency MPC controller under the simplified model, which has a higher working efficiency and more stable control performance.

Keywords

RobotBounding overwatchController (irrigation)Control theory (sociology)GaitRobot controlModel predictive controlComputer scienceSimulationMobile robot

Related papers

Browse all LOCOMOTION papers